Bibliography for tag longevity/epigenetics, most recent first: 3 related tags, 55 annotations, & 12 links (parent).
- See Also
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Links
- “DNAm Aging Biomarkers Are Responsive: Insights from 51 Longevity Interventional Studies in Humans”, et al 2024
- “Functional and Multi-Omic Aging Rejuvenation With GLP-1R Agonism”, et al 2024
- “Epigenetic Age Oscillates during the Day”, et al 2024
- “A Lipidome Aging Clock Shows Age Acceleration in Individuals With Autism”, et al 2024
- “A Universal Molecular Mechanism Driving Aging”, et al 2024
- “Metformin Decelerates Aging Clock in Male Monkeys”, et al 2024
- “Mechanisms, Pathways and Strategies for Rejuvenation through Epigenetic Reprogramming”, et al 2023
- “Calorie Restriction Modulates the Transcription of Genes Related to Stress Response and Longevity in Human Muscle: The CALERIE Study”, et al 2023
- “Multi-Omic Rejuvenation and Life Span Extension on Exposure to Youthful Circulation [Parabiosis]”, et al 2023b
- “Reprogramming by Drug-Like Molecules Leads to Regeneration of Cochlear Hair Cell-Like Cells in Adult Mice”, et al 2023
- “Epigenetic Fidelity in Complex Biological Systems and Implications for Ageing”, et al 2023
- “Centenarian Clocks: Epigenetic Clocks for Validating Claims of Exceptional Longevity”, Dec et al 2023
- “Gene Therapy Mediated Partial Reprogramming Extends Lifespan and Reverses Age-Related Changes in Aged Mice”, et al 2023
- “Longevity and Rejuvenation Effects of Cell Reprogramming Are Decoupled from Loss of Somatic Identity”, et al 2022
- “A Generalizable Epigenetic Clock Captures Aging in Two Nonhuman Primates”, et al 2022
- “Aging Clocks, Entropy, and the Limits of Age-Reversal”, et al 2022
- “Centenarians Consistently Present a Younger Epigenetic Age Than Their Chronological Age With 4 Epigenetic Clocks Based on a Small Number of CpG Sites”, et al 2022
- “Chemical Reprogramming Ameliorates Cellular Hallmarks of Aging and Extends Lifespan”, et al 2022
- “In Vivo Reprogramming Leads to Premature Death due to Hepatic and Intestinal Failure.”, et al 2022
- “DNA Methylation Clocks for Dogs and Humans”, et al 2022
- “Making Sense of the Ageing Methylome”, et al 2022
- “In Vivo Partial Reprogramming Alters Age-Associated Molecular Changes during Physiological Aging in Mice”, et al 2022
- “Clock Work: Deconstructing the Epigenetic Clock Signals in Aging, Disease, and Reprogramming”, et al 2022
- “An Open Science Study of Ageing in Companion Dogs”, et al 2022
- “Heterochronic Parabiosis Reprograms the Mouse Brain Transcriptome by Shifting Aging Signatures in Multiple Cell Types”, et al 2022
- “Multi-Omic Rejuvenation of Naturally Aged Tissues by a Single Cycle of Transient Reprogramming”, et al 2022
- “An Epigenetic Aging Analysis of Randomized Metformin and Weight Loss Interventions in Overweight Postmenopausal Breast Cancer Survivors”, Nwanaji- et al 2021
- “Profiling Epigenetic Age in Single Cells”, et al 2021
- “Rejuvant®, a Potential Life-Extending Compound Formulation With Alpha-Ketoglutarate and Vitamins, Conferred an Average 8 Year Reduction in Biological Aging, After an Average of 7 Months of Use, in the TruAge DNA Methylation Test”, Demidenko1 et al 2021
- “Nutritional Reprogramming of Mouse Liver Proteome Is Dampened by Metformin, Resveratrol, and Rapamycin”, et al 2021
- “Ultra-Cheap and Scalable Epigenetic Age Predictions With TIME-Seq”, et al 2021
- “Many Chronological Aging Clocks Can Be Found throughout the Epigenome: Implications for Quantifying Biological Aging”, et al 2021
- “Genome-Wide Methylation Data Improves Dissection of the Effect of Smoking on Body Mass Index”, et al 2021
- “Partial Reprogramming Restores Youthful Gene Expression through Transient Suppression of Cell Identity”, et al 2021
- “Epigenetic Predictors of Maximum Lifespan and Other Life History Traits in Mammals”, et al 2021
- “Universal DNA Methylation Age across Mammalian Tissues”, et al 2021
- “Reprogramming to Recover Youthful Epigenetic Information and Restore Vision”, et al 2020
- “Sight Restored by Turning Back the Epigenetic Clock: Neurons Progressively Deteriorate With Age and Lose Resilience to Injury. It Emerges That Treatment With Three Transcription Factors Can Re-Endow Neurons in the Mature Eye With Youthful Characteristics and the Capacity to Regenerate.”, 2020
- “Reversal of Epigenetic Age With Diet and Lifestyle in a Pilot Randomized Clinical Trial”, et al 2020
- “Epigenetic Clocks: A Review”, 2020
- “Reversal of Aging via in Vivo Epigenetic Reprogramming”, 2020b
- “Current Perspectives on the Cellular and Molecular Features of Epigenetic Ageing”, 2020
- “Erosion of the Epigenetic Landscape and Loss of Cellular Identity As a Cause of Aging in Mammals”, et al 2019
- “TRIIM: Reversal of Epigenetic Aging and Immunosenescent Trends in Humans”, et al 2019
- “DNA Methylation GrimAge Strongly Predicts Lifespan and Healthspan”, et al 2019
- “Epigenetic Prediction of Complex Traits and Death”, et al 2018
- “DNAm PhenoAge: An Epigenetic Biomarker of Aging for Lifespan and Healthspan”, et al 2018
- “Too Much Success for Recent Groundbreaking Epigenetic Experiments”, 2014
- “Large Offspring Syndrome: a Bovine Model for the Human Loss-Of-Imprinting Overgrowth Syndrome Beckwith-Wiedemann”, et al 2013
- “DNA Methylation Age of Human Tissues and Cell Types”, 2013
- “Morphological Abnormalities, Impaired Fetal Development and Decrease in Myostatin Expression following Somatic Cell Nuclear Transfer in Dogs”, et al 2011
- “DNA Methylation Aging Clocks: Challenges and Recommendations”
- “Global Biotraits Database”
- “Adipose Tissue Retains an Epigenetic Memory of Obesity After Weight Loss”
- “Real Age versus Biological Age: the Startups Revealing How Old We Really Are”
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